Free Essay

Physics

In:

Submitted By Jon12987
Words 755
Pages 4
Student guide: Name:____________________
Discuss the words in the box.

o review we have already covered and new you will learn today

Guiding Question: How do the properties of amplitude and frequency affect wavelength?

Start: [pic] 1. Click on the first link

2. For this activity you will be collecting data to explore three properties of a wave.

3. [pic] Explore the simulation with your partner. Be sure to click on all the buttons.

4. For the first set of investigations, we will look at amplitude.

• you need to be on [pic] [pic]

• The rest of your screen should be set up like this:

[pic] [pic]Look over the data table, on the back, and discuss how get the data you need.
[pic] moves the wave.

|Amplitude setting | Height of wave at the start |Distance ring moves on pole (end) |
| |(be sure your ruler is lined up correctly) | |
|100 |17 cm |2 cm |
|50 |9 cm |1 cm |
|5 |1 cm |0 cm |

Discuss what happened to the energy at the end of the wave when we changed the amplitude. Be prepared to share your thoughts on this with the class As the wave moved toward the pole, the energy was transferred to the surrounding air particles and it slowly lessened the energy of the wave.

5. Repeat number 4 – using [pic] and then [pic] Why didn’t we use these options for the experiment with the amplitude button? With the ring, the energy is transferred to the ring making it move up the pole. With the fixed end, the energy is transferred to the clamp and then vibrates back. With the “no end”, the energy continues to move out the window.

If we had used the other options rather than the ring on the pole, the energy at the end would have been much smaller.

__________________________________________________________________ Teacher

Check- point

6. For this next part we will investigate wavelength.

• You need to be on [pic]

• The rest of your screen should be set up like we did for number 4.

• Try out the [pic] button after you hit pause. This may be useful for collecting data. Data:[pic]

[pic]
7. [pic]Talk about the wavelength of the two waves you measured. ➢ Discuss how they were similar and how they were different. Despite the change in amplitude these transverse waves had the same wavelength.

➢ Be prepared to share your thoughts with the class.

For the third set of investigations, we will look at frequency.

• you need to be on [pic]

• open both the ruler and timer

• controlled variables: Amplitude and damping should be left on 50 and tension stays on “high” • Remember, to stop or slow the wave use pause/play and .

1. [pic]Look over the data table and discuss how you will collect the data you need.

2. Before you begin… try a little practice using the timer:

• Turn the timer on, off and reset the timer while waves are moving.

3. Practice counting waves passing a given point:

• Move the vertical ruler so that it is along the wave’s path. This will be the point where you watch waves pass and count them. Count 5 waves passing the ruler. Change the frequency and count again.

4. [pic]Fill in the table by working together counting the waves and using the timer.

Data:

|frequency |Time interval |Number of waves: |Average number of waves |Number of waves in |
| | | |counted in 10 second period |1 second |
| | | | |frequency** |
| | |Trial #1 |Trial #2 |Trial #3 | | |
|50 |10 seconds | | | |18 |1.8 |
|10 |10 seconds | | | |4 |.4 |
|100 |10 seconds | | | |27 |2.7 |

*To find frequency, divide the average number of waves counted by the time interval.

5. [pic] Talk about the data.

➢ Decide on a way your group can explain wave frequency to the class.

➢ [pic] Write your idea(s) on the lines.

The more energy, the higher the frequency and with less energy comes less frequency.

Frame: Our data show that the higher the number chosen for the frequency on the slider, the higher the number of waves passing through in a certain amount of time.

6. Use arrows, or draw on the wave, to show what will happen when the amplitude is increased:

[pic]

7. Use arrows, or draw on the wave, to show what will happen when the frequency is increased:

[pic][pic]
-----------------------
Review: New: (check-off at the end)

crest amplitude

trough frequency

line of origin oscillate vs. pulse

Phet Waves on a string

wavelength = _32______ cm

Wavelength = __32_ cm

Line of --origin------

Line of --origin------

Similar Documents

Free Essay

Physics

...Assignment in Physics... 1. Definition of Science, Major branches of science 2. Scientific Method 3. Definition of Physics and its major branches 4. Notable Physicist and their contribution 5. Importance of Physics in our everyday life and in our society. (Write the references) Short bond paper, written or computerized (font: Times New Roman/font size: 12) Reading assign. Measurement Diff. system of measurement fundamentals and derive quantities scientific notation rules in significant figures conversion of units http://www.hep.man.ac.uk/babarph/babarphysics/physicists.html ) I.1 Science The intellectual and practical activity encompassing the systematic study of the structure and behaviour of the physical and natural world through observation and experiment. I.2 The Branches of Science The Physical Sciences * Physics: The study of matter and energy and the interactions between them. Physicists study such subjects as gravity, light, and time. Albert Einstein, a famous physicist, developed the Theory of Relativity. * Chemistry: The science that deals with the composition, properties, reactions, and the structure of matter. The chemist Louis Pasteur, for example, discovered pasteurization, which is the process of heating liquids such as milk and orange juice to kill harmful germs. * Astronomy: The study of the universe beyond the Earth's atmosphere. The Earth Sciences * Geology: The science of the origin, history, and structure...

Words: 1431 - Pages: 6

Free Essay

Physics

...Aristotle was perhaps the first in the Western tradition to look at mechanics in any sort of structured way. A philosopher, rather than physicist, Aristotle thought about the way objects interact with each other, particularly their motions. One of the ideas to come from Aristotle’s work is that objects “like” to remain at rest. This seems rather reasonable put a book on a table and it remains still, push it gently and it will move until you stop. This begs the question, though what happens when we throw ad object? Our hand stops pushing, but the object continues to move. Likewise when we roll a ball we release the ball and it continues to move. Aristotle’s answer was impetus. When an object is moved by another (your hand, for example, throwing a ball), it accrues impetus. When the mover stops acting upon the movee, the impetus it accrued whilst being acted upon is used to continue the motion. Under this model, we would expect objects to exhibit straight-line trajectories rather than the parabolic trajectories we see when we throw an object A second idea of Aristotle’s is that heavier objects fall faster than lighter objects. It does, at first glance, seem rather reasonable but it is, like the idea of impetus, quite easily shown incorrect. The Aristotleans didn’t bother to take observations or do experiments to support their beliefs and most of those that came after them were content to trust Aristotle. Thus for more than 100 years, our understanding of mechanics was fundamentally...

Words: 667 - Pages: 3

Free Essay

Physics

...1. (5) famous physicist in their invention. Denis Papin (22 August 1647 - c. 1712) was a French physicist, mathematician andinventor, best known for his pioneering invention of the steam digester, the forerunner of the steam engine and of the pressure cooker. Thomas Alva Edison (February 11, 1847 – October 18, 1931) was an American inventorand businessman. He developed many devices that greatly influenced life around the world, including the phonograph, the motion picture camera, and a long-lasting, practical electriclight bulb. Dubbed "The Wizard of Menlo Park" by a newspaper reporter, he was one of the first inventors to apply the principles of mass production and large-scale teamwork to the process of invention, and because of that, he is often credited with the creation of the first industrial research laboratory Alexander Graham Bell (March 3, 1847 – August 2, 1922) was an eminent scientist, inventor, engineer and innovator who is credited with inventing the first practical telephone. Many other inventions marked Bell's later life, including groundbreaking work in optical telecommunications, hydrofoils and aeronautics. In 1888, Bell became one of the founding members of the National Geographic Society.[8] He has been described as one of the most influential figures in human history. John Logie Baird FRSE (13 August 1888 – 14 June 1946) was a Scottish engineer and inventor of the world's first practical, publicly demonstrated television system, and also the world's first...

Words: 508 - Pages: 3

Free Essay

Physics

...Statics of Rigid Bodies STATICS OF RIGID BODIES Chapter 1: Introduction Department of Engineering Sciences enter 〉〉 Statics of Rigid Bodies DEFINITION Mechanics • the study of the relationship among forces and their effects on bodies. • the science which describes and predicts the conditions for rest and motion of bodies under the action of forces. • a physical science (for it deals with physical phenomena) Prev Department of Engineering Sciences Jump to… Stop Show Next Statics of Rigid Bodies MECHANICS MECHANICS RIGID BODIES STATICS bodies at rest DYNAMICS bodies in motion DEFORMABLE BODIES INCOMPRESSIBLE FLUIDS COMPRESSIBLE Prev Department of Engineering Sciences Jump to… Stop Show Next Statics of Rigid Bodies What is a FORCE? represents the action of one body on another that tends to change the state or state of motion of a body. may be exerted by actual contact or at a distance (e.g. gravitational and magnetic forces). characterized by its point of application, magnitude and direction. represented by a vector. Prev Department of Engineering Sciences Jump to… Stop Show Next Statics of Rigid Bodies Effects of a FORCE • development of other forces (reactions or internal forces) • deformation of the body • acceleration of the body Applied Force Prev Department of Engineering Sciences Jump to… Stop Show Next Statics of Rigid Bodies Development of other forces ...

Words: 534 - Pages: 3

Premium Essay

Physics: The Physics Of Roller Coasters

...In any amusement park, the roller coaster is usually the most popular ride. It was first built in Russia during the 16th century, ever since then, the roller coaster has been a hit. With the car slowly moving up the everlasting height of the hill, high enough to touch the clouds, and then rushing downwards through many loops and twists, is enough to keep one’s adrenaline pumping. But what is the secret of the roller coaster? How is it possible for it to work this way? The answer is science. Many may not know, but science, specifically physics, has a lot to do with roller coasters. The roller coaster is actually powered by many types of energy: mechanical, potential, and kinetic. Mechanical energy is ‘the energy acquired by the objects upon which work is done.’ (Definition of Mechanical Energy). Potential energy is ‘energy possessed by an object because of its height above the ground’ (Definition of Potential Energy). Kinetic energy is ‘the energy of motion’ (Definition of Kinetic Energy)....

Words: 444 - Pages: 2

Free Essay

Physics

...Discussion #3 For this experiment we measured gravitational acceleration and velocity of a cart getting pushed up a ramp. First we had to make a prediction of how a velocity and acceleration graph would look like with a cart going up the ramp. After that we actually started to do the experiment. We then went to the computer which would help us graph our measurements of each time we did the experiment. It measured velocity, acceleration, and position of the cart each time. We did the experiment about a couple times until we got a good looking graph, then we recorded it on our lab reports and used it for the rest of our remaining results. Before using that, we took a measurement of the angle of the ramp which turned out to be 4.04 degrees. After that, we then took the graphs we did that were on the computer and we used different tools to find out the acceleration and slope of each specific time in the reading the lab report told us to do. From there after we were done, we then waited till the whole class was done and we all wrote down what our readings were for each measurement. Our measurements were; 4.04 degrees for angle A, .63 kg for the mass of the cart, .582 with an uncertainty of .009 for our acceleration from the average slope, .58 with an uncertainty of .009 for th average acceleration from STATS , 1.13 for mass of the cart with added mass, .569 with an uncertainty of .032 for acceleration from average slope with the doubled mass, and finally 8.199 with an uncertainty...

Words: 285 - Pages: 2

Premium Essay

Physics Research

...Galileo was born in Pisa (then part of the Duchy of Florence), Italy in 1564, the first of six children of Vincenzo Galilei, a famous lutenist, composer, and music theorist; and Giulia Ammannati. Galileo was named after an ancestor, Galileo Bonaiuti, a physician, university teacher and politician who lived in Florence from 1370 to 1450. Galileo Galilei  was an Italian physicist, mathematician, astronomer, and philosopher who played a major role in the scientific revolution. Galileo has been called the "father of modern physics Galileo's theoretical and experimental work on the motions of bodies, along with the largely independent work of Kepler and René Descartes, was a precursor of the classical mechanics developed by Sir Isaac Newton. Galileo conducted several experiments with pendulums. It is popularly believed that these began by watching the swings of the bronze chandelier in the cathedral of Pisa, using his pulse as a timer. Later experiments are described in his Two New Sciences. Galileo claimed that a simple pendulum is isochronous, i.e. that its swings always take the same amount of time, independently of the amplitude. In fact, this is only approximately true. Galileo also found that the square of the period varies directly with the length of the pendulum. It is said that at the age of 19, in the cathedral of Pisa, he timed the oscillations of a swinging lamp by means of his pulse beats and found the time for each swing to be the same, no matter what the amplitude...

Words: 734 - Pages: 3

Premium Essay

Math and Physics

...MOST DIFFICULT SUBJECTS FOR HIGHSCHOOL STUDENTS: MATH AND PHYSICS A Term Paper Presented to the Faculty of Saint Joseph's School In Partial Fulfillment of the Requirement in English IV Submitted to: Gemalyn Cantes Submitted by: Jovilyn Bumohya Date of submission: January 5, 2009 iii CONTENTS TITLE PAGE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iii CONTENTS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii ACKNOWLEDGEMENT. . . . . . . . . . . . . . . . . . . . . . . . . xii CHAPTER I: THE PROBLEM AND ITS BACKGROUND A. Statement of the Problem. . . . . . . . . . . . . . . . 1 B. Objectives of the Study. . . . . . . . . . . . . . . . . 1 C. Hypothesis. . . . . . . . . . . . . . . . . . . . . . . . . . . 1 D. Significance of the Study. . . . . . . . . . . . . . . . 1 E. Scope and Delimitation. . . . . . . . . . . . . . . . . 2 F. Definition of Terms. . . . . . . . . . . . . . . . . . . . 2 CHAPTER II: MOST DIFFICULT SUBJECTS FOR HIGHSCHOOLSTUDENTS: MATH AND PHYSICS A. Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . 3 B. Discussion. . . . . . . . . . . . . . . . . . . . . . . . . . . 3 CHPATER III: SUMMARY, CONCLUSION AND RECOMMENDATION A. Summary. . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 B. Conclusion. . . . . . . . . . . . . . . . . . . . . . . . . . 5 C. Recommendation...

Words: 1424 - Pages: 6

Premium Essay

Physics For Dummies

...(2008). John Michell: (1724-1793). Retrieved November 1, 2015, from http://www.relativitybook.com/resources/John_Michell_bio.html Browne, Michael E. (1999). Schaum's outline of theory and problems of physics for engineering and science (Series: Schaum's Outline Series). McGraw-Hill Companies. p. 58. ISBN 978-0-07-008498-8. Holzner, Steven (2005). Physics for Dummies. Wiley, John & Sons, Incorporated. p. 64. ISBN 978-0-7645-5433-9. Koberlein, B. (n.d.). Einstein and Eddington. Retrieved October 24, 2015, from https://briankoberlein.com/2014/05/19/einstein-eddington/ Mastin, L. (2009). Important Dates and Discoveries - The Physics of the Universe. Retrieved October 24, 2015, from http://www.physicsoftheuniverse.com/dates.html Newton's law of universal gravitation. (n.d.). In Wikipedia. Retrieved October 31, 2015, from https://en.wikipedia.org/wiki/Newton's_law_of_universal_gravitation Speed-of-Light. (n.d.). The American Heritage® New Dictionary of Cultural Literacy, Third Edition. Retrieved November 01, 2015, from Dictionary.com website: http://dictionary.reference.com/browse/speed-of-light Stanford's Gravity Probe B confirms two Einstein theories...

Words: 1084 - Pages: 5

Free Essay

Real World Physics

...REAL WORLD PHYSICS Did you know that Physics and Sports cannot be separated? In sports, athletes need to apply the concepts of Physics. But the application of Physics is not just limited to the machineries but also on how people should move the parts of their body. If successfully applied, well it can increase an athlete’s performance. But there are far more reasons why I believe Physics is a spectator of sports: firstly the physics of ice skating or figure skating which was shown in the movie Ice Princes that I recently watched; second, the physics of playing basketball and lastly, the physics of archery. To start off, the movie Ice Princess is the perfect example wherein Physics was applied into sports. Remember Isaac Newton’s first law of motion? Which states: An object at rest stays at rest and an object in motion stays in motion with the same speed and in the same direction unless acted upon by an unbalanced force. (Mckinley, 2000) It is also known as inertia, and the very main reason why ice skaters glide smoothly on ice with the help of friction simply because there is less friction on ice. It is truly amazing on how the girl in the movie successfully applied Physics in figure skating. Another argument I have is, when your playing basketball. Physics is applied and can be seen when basketball players shoot the ball into the ring. As seen in the viral game angry birds, it basically shows and applies the concept of projectile motion wherein before the bird flies, a...

Words: 570 - Pages: 3

Free Essay

Understanding the World of Physics

...UNDERSTANDING PHYSICS – Part 1 MOTION, SOUND & HEAT Isaac Asimov Motion, Sound, and Heat From the ancient Greeks through the Age of Newton, the problems of motion, sound, and heat preoccupied the scientific imagination. These centuries gave birth to the basic concepts from which modern physics has evolved. In this first volume of his celebrated UNDERSTANDING PHYSICS, Isaac Asimov deals with this fascinating, momentous stage of scientific development with an authority and clarity that add further lustre to an eminent reputation. Demanding the minimum of specialised knowledge from his audience, he has produced a work that is the perfect supplement to the student’s formal textbook, as well se offering invaluable illumination to the general reader. ABOUT THE AUTHOR: ISAAC ASIMOV is generally regarded as one of this country's leading writers of science and science fiction. He obtained his Ph.D. in chemistry from Columbia University and was Associate Professor of Bio-chemistry at Boston University School of Medicine. He is the author of over two hundred books, including The Chemicals of Life, The Genetic Code, The Human Body, The Human Brain, and The Wellsprings of Life. The Search for Knowledge From Philosophy to Physics The scholars of ancient Greece were the first we know of to attempt a thoroughgoing investigation of the universe--a systematic gathering of knowledge through the activity of human reason alone. Those who attempted this rationalistic search for understanding...

Words: 259 - Pages: 2

Free Essay

Physics Test Paper

...[pic] |Level 1 Science | |90940 (1.1): Demonstrate understanding of aspects | |of mechanics | Credits: Four You should answer ALL parts of ALL questions in this booklet. If you need more space for any answer, use the page(s) provided at the back of this booklet and clearly number the question. Check that this booklet has pages 2–13 in the correct order and that none of these pages is blank. YOU MUST HAND THIS BOOKLET TO YOUR TEACHER AT THE END OF THE ALLOTTED TIME. |For Assessor’s |Achievement Criteria | | |use only | | | |Achievement |Achievement |Achievement | | |with Merit |with Excellence | |Demonstrate...

Words: 976 - Pages: 4

Free Essay

Physics

...Roger Truong Week 4 Physics Notes Experiment 1 * Rise and fall is pressure in the sound wave makes the flame move * The rise and fall in pressure makes the click sound * The rise and fall in the disturbance to what brings the sound to your ear * The square waves to what makes the flame move and bring the sound to your ear * The air molecules don’t move the disturbance does * For a 0.5 Hz your hear a click and the flame moves and resets * For 100 Hz the flame remains displaced and doesn’t recover * The transition from a click to a tone is between 20 and 50 Hz Reflection * Change in direction of a wave at an interference between two media wave returns into media from which it originated form. Wave Refraction * Change in direction of a wave when it passes from one medium to another caused by the different speeds of a wave * When water moves into different depths Wave Diffraction * Bending waves when they encounter an obstacle Absorption of waves * Reduction of energy in wave consumed by medium which it travels. * The main cause of absorption is Viscosity Interference * Two or more waves form coming together to make up a new wave Resonance * Tendency of a system to oscillate at a large amplitude at certain frequencies * Tendency to magnify a sound * The difference between an acoustic and electric guitar Wave Motion in Space and Time * Wave Motion in Space * Horizontal Axis:...

Words: 323 - Pages: 2

Free Essay

Physics Collisions

...Throughout our previous unit, we described the constant velocity of objects in motion. That laid the basis for this next unit, where we will be studying why and how the object moves the way it does, specifically the "push" or "pull" of force. The heavier cart in a same-direction elastic collision seems to push the lighter cart, which causes an increase in speed for the lighter cart. Although we may have brushed on the surface of movement, this unit will pave the path for further investigation on velocity as well as momentum. According to today's lab, it is possible to measure the mass of the carts and then multiple the mass by the velocity to determine momentum. These two things will be related to almost everything that we will be doing in physics, as how can we study how things move if we don't know how they're...

Words: 279 - Pages: 2

Free Essay

Physics

...Computational Condensed Matter 4 (2015) 32e39 Contents lists available at ScienceDirect Computational Condensed Matter journal homepage: http://ees.elsevier.com/cocom/default.asp Regular article Putting DFT to the trial: First principles pressure dependent analysis on optical properties of cubic perovskite SrZrO3 Ghazanfar Nazir a, b, *, Afaq Ahmad b, Muhammad Farooq Khan a, Saad Tariq b a b Department of Physics and Graphene Research Institute, Sejong University, Seoul 143-747, South Korea Centre of Excellence in Solid State Physics, University of the Punjab, Lahore, Pakistan a r t i c l e i n f o a b s t r a c t Article history: Received 8 July 2015 Received in revised form 21 July 2015 Accepted 27 July 2015 Available online 31 July 2015 Here we report optical properties for cubic phase Strontium Zirconate (SrZrO3) at different pressure values (0, 40, 100, 250 and 350) GPa under density functional theory (DFT) using Perdew-Becke-Johnson (PBE-GGA) as exchange-correlation functional. In this article we first time report all the optical properties for SrZrO3. The real and imaginary dielectric functions has investigated along with reflectivity, energy loss function, optical absorption coefficient, optical conductivity, refractive index and extinction coefficient under hydrostatic pressure. We demonstrated the indirect and direct bandgap behavior of SrZrO3 at (0) GPa and (40, 100, 250 and 350) GPa respectively. In addition, static dielectric...

Words: 5414 - Pages: 22